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/** \file     DecAppCfg.cpp
    \brief    Decoder configuration class
*/

#include <cstdio>
#include <cstring>
#include <string>
#include "DecAppCfg.h"
#include "Utilities/program_options_lite.h"
#include "CommonLib/ChromaFormat.h"
#include "CommonLib/dtrace_next.h"

using namespace std;
namespace po = df::program_options_lite;

//! \ingroup DecoderApp
//! \{

// ====================================================================================================================
// Public member functions
// ====================================================================================================================

/** \param argc number of arguments
    \param argv array of arguments
 */
bool DecAppCfg::parseCfg( int argc, char* argv[] )
{
  bool do_help = false;
  string cfg_TargetDecLayerIdSetFile;
  string outputColourSpaceConvert;
  int warnUnknowParameter = 0;
#if ENABLE_TRACING
  string sTracingRule;
  string sTracingFile;
  bool   bTracingChannelsList = false;
#endif
#if ENABLE_SIMD_OPT
  std::string ignore;
#endif
  po::Options opts;
  opts.addOptions()

  ("help",                      do_help,                               false,      "this help text")
  ("BitstreamFile,b",           m_bitstreamFileName,                   string(""), "bitstream input file name")
  ("ReconFile,o",               m_reconFileName,                       string(""), "reconstructed YUV output file name\n")

#if ENABLE_SIMD_OPT
  ("SIMD",                      ignore,                                string(""), "SIMD extension to use (SCALAR, SSE41, SSE42, AVX, AVX2, AVX512), default: the highest supported extension\n")
#endif

  ("WarnUnknowParameter,w",     warnUnknowParameter,                   0,          "warn for unknown configuration parameters instead of failing")
  ("SkipFrames,s",              m_iSkipFrame,                          0,          "number of frames to skip before random access")
  ("OutputBitDepth,d",          m_outputBitDepth[CHANNEL_TYPE_LUMA],   0,          "bit depth of YUV output luma component (default: use 0 for native depth)")
  ("OutputBitDepthC,d",         m_outputBitDepth[CHANNEL_TYPE_CHROMA], 0,          "bit depth of YUV output chroma component (default: use luma output bit-depth)")
  ("OutputColourSpaceConvert",  outputColourSpaceConvert,              string(""), "Colour space conversion to apply to input 444 video. Permitted values are (empty string=UNCHANGED) " + getListOfColourSpaceConverts(false))
  ("MaxTemporalLayer,t",        m_iMaxTemporalLayer,                   -1,         "Maximum Temporal Layer to be decoded. -1 to decode all layers")
  ("SEIDecodedPictureHash,-dph",m_decodedPictureHashSEIEnabled,        1,          "Control handling of decoded picture hash SEI messages\n"
                                                                                   "\t1: check hash in SEI messages if available in the bitstream\n"
                                                                                   "\t0: ignore SEI message")
  ("SEINoDisplay",              m_decodedNoDisplaySEIEnabled,          true,       "Control handling of decoded no display SEI messages")
  ("TarDecLayerIdSetFile,l",    cfg_TargetDecLayerIdSetFile,           string(""), "targetDecLayerIdSet file name. The file should include white space separated LayerId values to be decoded. Omitting the option or a value of -1 in the file decodes all layers.")
  ("RespectDefDispWindow,w",    m_respectDefDispWindow,                0,          "Only output content inside the default display window\n")
  ("SEIColourRemappingInfoFilename",  m_colourRemapSEIFileName,        string(""), "Colour Remapping YUV output file name. If empty, no remapping is applied (ignore SEI message)\n")
  ("OutputDecodedSEIMessagesFilename",  m_outputDecodedSEIMessagesFilename,    string(""), "When non empty, output decoded SEI messages to the indicated file. If file is '-', then output to stdout\n")
  ("ClipOutputVideoToRec709Range",      m_bClipOutputVideoToRec709Range,  false,   "If true then clip output video to the Rec. 709 Range on saving")
  ("PYUV",                      m_packedYUVMode,                       false,      "If true then output 10-bit and 12-bit YUV data as 5-byte and 3-byte (respectively) packed YUV data. Ignored for interlaced output.")
#if ADCNN
	  ("tf_pb_path", m_pbpath, string("weights.pb"), "tensorflow pb file path")
	  ("WorkingMode,-mode", m_sWorkingMode, string("GPU"), "Deep Learning Working Mode")
	  ("GPUid,-gpuid", m_iGPUid, string(""), "GPU id")
#endif
#if ENABLE_TRACING
  ("TraceChannelsList",         bTracingChannelsList,                        false, "List all available tracing channels" )
  ("TraceRule",                 sTracingRule,                         string( "" ), "Tracing rule (ex: \"D_CABAC:poc==8\" or \"D_REC_CB_LUMA:poc==8\")" )
  ("TraceFile",                 sTracingFile,                         string( "" ), "Tracing file" )
#endif
#if JVET_J0090_MEMORY_BANDWITH_MEASURE
  ("CacheCfg",                  m_cacheCfgFile,                       string( "" ), "CacheCfg File" )
#endif
#if RExt__DECODER_DEBUG_STATISTICS
  ("Stats",                     m_statMode,                           3,           "Control decoder debugging statistic output mode\n"
                                                                                   "\t0: disable statistic\n"
                                                                                   "\t1: enable bit statistic\n"
                                                                                   "\t2: enable tool statistic\n"
                                                                                   "\t3: enable bit and tool statistic\n")
#endif
  ;

  po::setDefaults(opts);
  po::ErrorReporter err;
  const list<const char*>& argv_unhandled = po::scanArgv(opts, argc, (const char**) argv, err);

  for (list<const char*>::const_iterator it = argv_unhandled.begin(); it != argv_unhandled.end(); it++)
  {
    msg( VTMERROR, "Unhandled argument ignored: `%s'\n", *it);
  }

  if (argc == 1 || do_help)
  {
    po::doHelp(cout, opts);
    return false;
  }

  if (err.is_errored)
  {
    if (!warnUnknowParameter)
    {
      /* errors have already been reported to stderr */
      return false;
    }
  }

#if ENABLE_TRACING
  g_trace_ctx = tracing_init( sTracingFile, sTracingRule );
  if( bTracingChannelsList && g_trace_ctx )
  {
    std::string sChannelsList;
    g_trace_ctx->getChannelsList( sChannelsList );
    msg( VTMINFO, "\nAvailable tracing channels:\n\n%s\n", sChannelsList.c_str() );
  }
#endif

  // Chroma output bit-depth
  if( m_outputBitDepth[CHANNEL_TYPE_LUMA] != 0 && m_outputBitDepth[CHANNEL_TYPE_CHROMA] == 0 )
  {
    m_outputBitDepth[CHANNEL_TYPE_CHROMA] = m_outputBitDepth[CHANNEL_TYPE_LUMA];
  }

  m_outputColourSpaceConvert = stringToInputColourSpaceConvert(outputColourSpaceConvert, false);
  if (m_outputColourSpaceConvert>=NUMBER_INPUT_COLOUR_SPACE_CONVERSIONS)
  {
    msg( VTMERROR, "Bad output colour space conversion string\n");
    return false;
  }

  if (m_bitstreamFileName.empty())
  {
    msg( VTMERROR, "No input file specified, aborting\n");
    return false;
  }

  if ( !cfg_TargetDecLayerIdSetFile.empty() )
  {
    FILE* targetDecLayerIdSetFile = fopen ( cfg_TargetDecLayerIdSetFile.c_str(), "r" );
    if ( targetDecLayerIdSetFile )
    {
      bool isLayerIdZeroIncluded = false;
      while ( !feof(targetDecLayerIdSetFile) )
      {
        int layerIdParsed = 0;
        if ( fscanf( targetDecLayerIdSetFile, "%d ", &layerIdParsed ) != 1 )
        {
          if ( m_targetDecLayerIdSet.size() == 0 )
          {
            msg( VTMERROR, "No LayerId could be parsed in file %s. Decoding all LayerIds as default.\n", cfg_TargetDecLayerIdSetFile.c_str() );
          }
          break;
        }
        if ( layerIdParsed  == -1 ) // The file includes a -1, which means all LayerIds are to be decoded.
        {
          m_targetDecLayerIdSet.clear(); // Empty set means decoding all layers.
          break;
        }
        if ( layerIdParsed < 0 || layerIdParsed >= MAX_NUM_LAYER_IDS )
        {
          msg( VTMERROR, "Warning! Parsed LayerId %d is not within allowed range [0,%d]. Ignoring this value.\n", layerIdParsed, MAX_NUM_LAYER_IDS-1 );
        }
        else
        {
          isLayerIdZeroIncluded = layerIdParsed == 0 ? true : isLayerIdZeroIncluded;
          m_targetDecLayerIdSet.push_back ( layerIdParsed );
        }
      }
      fclose (targetDecLayerIdSetFile);
      if ( m_targetDecLayerIdSet.size() > 0 && !isLayerIdZeroIncluded )
      {
        msg( VTMERROR, "TargetDecLayerIdSet must contain LayerId=0, aborting" );
        return false;
      }
    }
    else
    {
      msg( VTMERROR, "File %s could not be opened. Using all LayerIds as default.\n", cfg_TargetDecLayerIdSetFile.c_str() );
    }
  }
  return true;
}

DecAppCfg::DecAppCfg()
: m_bitstreamFileName()
, m_reconFileName()
, m_iSkipFrame(0)
// m_outputBitDepth array initialised below
, m_outputColourSpaceConvert(IPCOLOURSPACE_UNCHANGED)
, m_iMaxTemporalLayer(-1)
, m_decodedPictureHashSEIEnabled(0)
, m_decodedNoDisplaySEIEnabled(false)
, m_colourRemapSEIFileName()
, m_targetDecLayerIdSet()
, m_respectDefDispWindow(0)
, m_outputDecodedSEIMessagesFilename()
, m_bClipOutputVideoToRec709Range(false)
, m_packedYUVMode(false)
, m_statMode(0)
#if ADCNN
, m_pbpath()
, m_sWorkingMode()
, m_iGPUid()
#endif
{
  for (uint32_t channelTypeIndex = 0; channelTypeIndex < MAX_NUM_CHANNEL_TYPE; channelTypeIndex++)
  {
    m_outputBitDepth[channelTypeIndex] = 0;
  }
}

DecAppCfg::~DecAppCfg()
{
#if ENABLE_TRACING
  tracing_uninit( g_trace_ctx );
#endif
}

//! \}
